腐蚀
材料科学
冶金
硫黄
微晶
氧化物
高温合金
相(物质)
晶间腐蚀
应力腐蚀开裂
压力(语言学)
内氧化
工作(物理)
高温腐蚀
微观结构
固溶体
化学成分
作文(语言)
形态学(生物学)
比例(比率)
盐(化学)
化学工程
作者
Cynthia Rodenkirchen,Victoria Minns,Adriana Encinas‐Oropesa,J.R. Nicholls,Mark Hardy,T. Ben Britton
标识
DOI:10.1007/s11661-025-08041-7
摘要
Abstract This work investigates the effect of alloying elements Mn, Si, and Fe on the corrosion resistance of polycrystalline Ni-based superalloys, at $$700\,^{\circ }{\hbox {C}}$$ 700 ∘ C in air and 300 vpm $${\hbox {SO}}_{2}$$ SO 2 under 5 $${\mu {\hbox {g}}}\,{{\textrm{cm}}^{2}\,h}$$ μ g cm 2 h salt coating. Oxide scale morphology and composition was investigated using SEM–EDX and APT, revealing Mn–Fe-enriched $${\hbox {Co}}_{3}{\hbox {O}}_{4}$$ Co 3 O 4 particles in the upper outward growing scale as well as Si-Fe-enriched clusters in NiO. Along the NiO– $$ {\hbox {Co}}_{3}{\hbox {O}}_{4} $$ Co 3 O 4 phase boundary, a tight network of Fe-decorated dislocations relieving stress between the lattices was identified through APT. In the inward growing scale, Si enrichment was observed in the form of oxides and sulfides, while no Mn was detected. Graphical Abstract
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